2018-至今中国农业大学植物遗传育种与种子科学系,教授,博导
2010-2017中国农业大学植物遗传育种系,副教授,博导
2013-2014 美国佛罗里达大学农学系,访问学者
2007-2010清华大学生命科学学院,博士后
2004-2007中国农业大学植物遗传育种系,博士生
2001-2004中国农业大学植物遗传育种系,硕士生
1996-2000湖南农业大学农学系,本科生
主讲本科生核心课程:试验设计与生物统计
1、野生稻有利等位基因的发掘与利用
2、水稻驯化分子机理研究
3、水稻重要农艺性状遗传调控网络解析
1、国家自然科学基金委面上项目,水稻落粒性调控基因SSH1的克隆与功能分析,2018/01–2021/12,主持
2、国家重点研发计划,增加籽粒数的分子调控机制,2016/07–2020/12,参加
3、国家自然科学基金委重大研究计划培育项目,水稻穗发育和产量性状基因的克隆及其调控途径研究,2015/01–2017/12,主持
4、国家自然科学基金委优秀青年科学基金项目,水稻种质资源,2013/01–2015/12,主持
5、教育部新世纪优秀人才支持计划,水稻遗传育种,2013/01–2015/12,主持
6、国家自然科学基金委面上项目,野生稻穗粒数QTL GPA2的克隆及分子进化研究,2012/01–2015/12,主持
7、科技部“十二五”农村领域国家科技计划课题,超高产水稻分子育种与品种创制,2012/01–2015/12,任务负责人
8、教育部全国优秀博士学位论文作者专项资金,2010/01–2012/12,主持
1.Tang Y, Ma X, Zhao S, Xue W, Zheng X, Sun H, Gu P, Zhu Z, Sun C, Liu F*, Tan L*. Identification of an active miniature inverted-repeat transposable element mJing rice. Plant Journal, 2019, doi:10.1111/tpj.14260.
2.Jiang L, Ma X, Zhao S, Tang Y, Liu F, Gu P, Fu Y, Zhu Z, Cai H, Sun C, Tan L*. The APETALA2-like transcription factor SUPERNUMERARY BRACT controls rice seed shattering and seed size. Plant Cell, 2019, 31: 17–36.
3.Wu Y#, Zhao S#, Li X#, Zhang B, Jiang L, Tang Y, Zhao J, Ma X, Cai H, Sun C, Tan L*. Deletions linked to PROG1 gene participate in plant architecture domestication in Asian and African rice. Nature Communications. 2018, 9: 4157.
4.Huo X, Wu S, Zhu Z, Liu F, Fu Y, Cai H, Sun X, Gu P, Xie D, Tan L*, Sun C*. NOG1 increases grain production in rice. Nature Communications. 2017, 8:1497.
5.Zhao S, Zhao L, Liu F, Wu Y, Zhu Z, Sun C, Tan L*. NARROW AND ROLLED LEAF 2 regulates leaf shape, male fertility, and seed size in rice. Journal of Integrative Plant Biology. 2016, 58:983–996.
6.Wu Y, Fu Y, Zhao S, Gu P, Zhu Z, Sun C, Tan L*. CLUSTERED PRIMARY BRANCH 1, a new allele of DWARF11, controls panicle architecture and seed size in rice. Plant Biotechnology Journal. 2016, 14:377–386.
7.Ma X, Fu Y, Zhao X, Jiang L, Zhu Z, Gu P, Xu W, Su Z, Sun C, Tan L*. Genomic structure analysis of a set of Oryza nivara introgression lines and identification of yield-associated QTLs using whole-genome resequencing. Scientific Reports. 2016, 6:27425.
8.Zhao L, Tan L, Zhu Z, Xiao L, Xie D, Sun C. PAY1 improves plant architecture and enhances grain yield in rice. Plant Journal. 2015, 83:528–536.
9.Zhang Y, Tan L, Zhu Z, Yuan L, Xie D, Sun C. TOND1 confers tolerance to nitrogen deficiency in rice. Plant Journal. 2015, 81:367–376.
10.Zhang B, Sun C, Xie D, Tan L*. Global gene expression analysis of a rice high-tillering dwarf mutant. Genes & Genomics. 2014, 36:485–496.
11.Zhu Z, Tan L, Fu Y, Liu F, Cai H, Xie D, Wu F, Wu J, Matsumoto T, Sun C. Genetic control of inflorescence architecture during rice domestication. Nature Communications. 2013, 4:2200.
12.Li X, Tan L, Wang L, Hu S, Sun C. Isolation and characterization of conserved non-coding sequences among rice (Oryza sativa L.) paralogous regions. Molecular Genetics and Genomics. 2009, 281:11–18.
13.Garcia-Oliveira AL, Tan L, Fu Y, Sun C. QTL mapping for mineral nutrients in rice grain using introgression lines population. Journal of Integrative Plant Biology. 2009, 51:84–92.
14.Tan L, Li X, Liu F, Sun X, Li C, Zhu Z, Fu Y, Cai H, Wang X, Xie D, Sun C. Control of a key transition from prostrate to erect growth in rice domestication. Nature Genetics. 2008, 40:1360–1364.
15.Tan L, Zhang P, Liu F, Wang G, Ye S, Zhu Z, Fu Y, Cai H, Sun C. Quantitative trait loci underlying domestication- and yield-related traits in an Oryza rufipogon × Oryza sativa advanced backcross population. Genome. 2008, 51:692–704.
16.Tan L, Liu F, Xue W, Wang G, Ye S, Zhu Z, Fu Y, Wang X, Sun C. Development of Oryza rufipogon and Oryza sativa introgression lines and assessment for yield-related quantitative trait loci. Journal of Integrative Plant Biology. 2007, 49:871–884.